Engraving machine



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Nav.1 10, 1925.

' A. A. BUSH ENGRAVING MACHINE Filed Aug. 19'. 1922 @9A/@erf Mba/Sl? Nav. M), i925 A. A. BUSH- ENGRAVVIG- MACHINE A. A. BUSH ENGRAVING MAHINE No l@ i925! .ylberfzush Filed Aug. 19. 1922 W n n. d

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A. A. BUSH ENGRAVING MACHINE Filed Aug. 19. 1922 Shgetssheec4 5 @gpm 5A. A. BUSH ENGRAVING uAwrHnNE 1111601 Aug. 19. 1922 'f sheets-'snet e Nov.. 10, 1925. l 1,561,214

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Nov. 10,1925.

A. A. BUSH ENGRAVING MACHINE Filed Aug. 19. 1922 7 Sheets-Sheet' '7 Patented Nov. 10, 1925.

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STATES ALBERT A. BUSH, F AKRON, OHIO. ASSIGNOR TO THE FIRESTONE TREAND RUBBER COMPANY, OF AKRON. OHIO. A CORPORATION OF OHIO.

ENGRAVING MACHINE.

Application led August 19. 1922. Serial No.' 582,900.

To uU 'ze/10m, if may concer/L.'

lle it known that l. .iiimcirr A. llas-u, a

citizen ot' the l`nited States. residing|- at Akron. n1 the eounty ol lSummit. .State ot Ohio. haveI invented eel-tain new and useful Improvements in Engravingr Machines, of whieh the followin; r is a specification.

My rnvention relates to improvements in engravin; r maehines` for use in reprodueing a pattern upon the inner face of an annular objet-t. and it is particularly designed for use in eutting non-,skid patterns on the worlting laee otthe type ot' inold eonnnonly utilized in vuleanizingpneumatic tires.

ln eonjunetion with Richard H. Freitag. l have disclosed, in Patent No. 1,365,332). a mold engravin; r inaehine adapted for reproducing a pattern unit at. intervalsI upon the working l'aee ol a mold hy means otl a eutting tool whieh is eontrolled by a templet plate.

ll'he purpose ol' the present invention is to provide an improved maehine oven that shown in said patent, the prineipal iniprovement. generally Aspeaking. residingr 1n ithe provision otI a more llexihle nieehanisln'. that is to say. one that is eapahle ol'A a wider range ol' adjustment. and hen le a inlore extended range ot' operation and greater utility. Y

Another objeet ot' the invention is to provide an improved indexingmeans wherehy a pattern unit may heniore aeenrately re- Vprodueed at prtuleterminetl intervals within a given iireuml'erenee ol' niold surface.

Other objet-ts are the provision of an iinproved forni ot' driving meehanism for the euttinger tool` and an improved mounting for the telnplet` plate.

Other ohjeetsl inherent `in my invention. together with the advantages of the arrangement and the eonst'ruetion of parts emhodied therein. will appear \vl.en the t'oL lowing deseription is, read in eonjunetion with the drawings accompanying and tormingr a part of this speeilieation.

ln lsaid drawings:

Figure l is a Side elevation illustrating a preferred form of the invention. parts being broken away and shown in section;

Figure 2 is a top plan view of Figurel;

Figure 3 is au end elevation of a portion otl the invention drawn to an enlai parts being broken away and tion;

Figure t is a horizontal set-tion. on an enlarged s'ale, taken on the line #14 of Figure 1';

Figure 5 is a transverse section. on an enlarged seule, taken on the line 5 5 of Figure 1;

Figure is a longitudinal sectional View taken on the line 6-(3 o'l Figure i and drawn to an enlarged scale;

Figure T is a transvei" taken on the line 7- -7 ai Figure S- is a. liorizct" on the line 8MS ol' Fi Figure t) is a tranl .ional view taken on the line Sl-fa ai' i. igure 8;

Figure 10 is a longitudinal seelional view taken on the line lll- -ltl ai' Figure 9;

Figure ll is a vertieal sectional view illustrating the manner ot' mounting va templet. follower utilized in eonjunet-ion with "my invention;

Figure l2 is a plan view. partly in set-tion. illustratingr the indexing mechanism of my invention;

Figure lil is a horizontal see-tional View taken through a portion of said indexing meeltan ism;

Figure 14 is a transverse sectional view taken on the line ll-l of Figure 1Q;

Figure is a detail sectional view illustrating a stop device embodied in the indexing mechanism;

Figure 16 is a detail view of a bushing forming a part of the indexing mechanism;

Figure l? is a longitudinal seetional view drawn on an enlarged seule and illustratingr the nia-nner ot' supporting and driving the `rutting tool of my invention;

Figure 1S is a transverse seet-ional view taken on the line 18-18 of Figure 17;

Figure 19 is a horizontal seetional View taken on the line 19--19 of Figure 1 and drawn on an enlarged scale;

Figure 20 is a transverse sectional view taken on the line 20-20 of Fi ure 17; and

Figure 21 is a detail view o the templet follower.

The machine, briefly described, comprises ed scale. shown in seea base 1, of substantially rectangular form,

upon which there is mounted a mold sup porting and adjusting unit 2 and a 'tool supporting and operating unit 3, the units being relatively arranged and constructed in a manner presently described.

Unit 2 is constructed 'as follows Adjacent what may betermed the forward end of the table there is suitably affixed a circular bearing plate 4 that is designed to support upon its upper face a second circular bearing plate 5. The bearing plate 5 is adapted to be esA cillated concentrically of the plate 4, as will presently appear, and to this end the plates are provided with cooperating race-ways 6 for receiving suitable anti-friction bearings 7. Upon the peripheral face of the plate 5, a goose-neck bracket 8de mounted in a position-toy extend radiallyk'from the plate and toward the rear end oi the machine. The bracket 8 embodies a horizontalA portion 9 that is preferably disposed above the level of theltable tocform a support presently `referred`to. At its free extremity, the portion 9 of the bracket S is provided with a toothed segment l() arranged concentrically of the axis of oscillation et the plate-'5. A toothed pinion 11 is mounted below the support 9 in a suitable bearing 12, to mesh with the segment 10. The pinion 11 is adapted to be oscillated by any suitable fornrot hand levegpg and detent, such as that disclosed in the aforesaidv patent and shown conventionally at 18.

Upon the plate 5, a circular turn-table 1-lis arranged for rotation conccntrically thereof. The turn-table is designed to support the mold and is provided with radially adjustable clamps 15, of any suitable form, whereby the mold may be centered and held in concentric position relative to the axis of rotation of the table and also the axis of oscillation of the plate At a point covenient to the operator, a band lever lll is provided that is adapted to operate 'any suitable, 'form ot 'clamping device whereby the turn-table 14 may be locked to the plate 5 to be oscillated therewith for a purpose presently set forth.

Indexing means for rotating thetui-'nf' table 14 upon the plate 5 are provided, coniprising the following: A bracket 17, having spaced horizontal arms 18 and 19, is secured upon the peripheral face ol' the plate 5 in position to project substantially radially therefrom. Each of the arms 18 and 19 serves as a mounting for an individual sleeve 20, the sleeves being rotatable in their respective arms about a common horizontal axis adjacent the plate 5. Each sleeve is adapted to project from its associated arm to provide a concentric hub portion 21, for a purpose presently apparent. A rotary shaft 22 is journaled in the sleeves 2O tor adjustment excentrically of their anis ot' ro tation and has splined thereon a sleeve 23 which carries c Worin 24. End thrust bearings 2G are interposed between the ends et the sleeve 23 and the sleeves 20, and one end of the sleeve 23 is threaded te receive a nut 25 for taking up wear ot' the bearings 2G. lVorn12 is designed to be n'ieshed with a worm gear 2T mounted lupon the peripheral face ot' the turn-table 141-, and is rotated by means ot' interchangeable indexing gears, one of which is shown at 28 as affixed upon one end of the shaft The indexing gear 28 is rotated by a manually operated master gearv 29, carried upon one arm of an H- Shaped yoke 30. The yoke, in its operative position, projects horizontally from between the arms 18 and 19. The inner ends oit the yoke 80 are keyed respectively, as at 31, upon the hubs 21 of the sleeves 20 and it is retained in a horizontal position by means of a thumb nut 32 and bolt 33 adapted to lock it to the arm 18 ot' the bracket 17. The arm upon which the master genl 29 is carried is slotted, .as at 34, to receive a slidable bearing bleek 35. A shortI shaft 36 extends through the block and serves as a bearing for the master gear 29, the shaft at its inner end being threaded to receive a nut 37, whereby the block and the parts carried thereby may be clamped in any desired posi tion upon the yoke 30. A standard 38 is Darried by the block 35 and serves as a mounting for a spring pressed stop 39 that is designed to engage a cam 40 fast upon one face of the master gear 29 when said gear has completed its cycle of rotation.

The foregoing indexing devices are dcsigned to serve the following' purpose and to be operated as follows: The indexin gear 28 is constructed with the number or teeth corresponding to the number of divisions into which it is desired to divide the mold surface to reproduce a pattern at equal intervals around said surface. The master gear 29 has thesarne number of teeth asstbe Worm gear 27 upon the turn-table 14. When a unit of the pattern has been cut b 1 means' presently described, the operator rst un-k locks the table 14 from the plate 5 by means of the lever 16 previously referred to. The

master gear 29 is then rotated through a l complete cycle, this operation being gauged by the stop 39 and cani 40. Through this' operation the worin 24 and worin wheel 27 are actuated to rotate the turn table 14 upon the plate and a new surface of the mold "is moved into position to be operated upon,

Obviously the spacing of the pattern may bel changed by the substitution'of indexing gears having different numbers of teeth, and the master gear 29 may be adjnstcdupon the vyoke 30 by .means ot the slidable block 35' and nut 37, previously described, to accommodate larger or sala-ller indexing gears. `When it is desired to'iotate the turn table le freely, as when positioning and centering a mold thereon, the worm 24 may be discon nected from the worm gear :2T in the iollowinpr manner:

The thumb screw 32 and bolt 33 are tirst actuated to disconnect the yoke 90 from the arm 18, whereupon the yoke 3U and the elements carried thereon will gravitate into a vertical position revolvinf,r the sleeves :2U in their arms 18 and 1t). The shaft 22 and the worm 24, beim:r niounted'cxcentrically of the axis of rotation of the sleeves 20. it will be apparent that the worm 24 will be moved away from the worm wheel und thus disengaged therefrom. At the same time gears 28 and :59 remain in mesh. By means of the stop 39 and the cam 40, the rotation of thc mold may be automatically stopped at the regular intervals providedfoi: by the ratio;

of the gears :28 and 29 as will be perceived.

The tool supporting: and operatmg unit 3 comprises the following elements. A standard 41 arises from one rear corner of the base 1 and is provided upon the upper portion of its forward face with horizontal guideways 42 extending longitudinally of the base 1. A cross rail 43 is mounted in the guideways 42, the cross rail being of greater length than the guideway, whereb its forward end is adapted to overhang t e cavity of the mold. Upon the ovm-hanging end of the cross rail 43. a circular bearing block 44 is suitably atiixed for adjustment about its axis, being secured in adjusted osition .by bolts 44, the block beine provided with a vertical extension 45 and a vertical guide rail 46. Upon the guide rail 46, a second bearing block 47, similar in shape to block 44, is mounted for movement vertically thereof and also for adjustment with the block 44 about the axis ofthe latter. A vertically arranged screw shaft 48 is suitably journaled in a, chamber 49 inthe block 44, the threads of theshaft cngaginor the shaft 48 carries a beveled gear 51 that meshes; with a similar gear 52 fast upon a short shaft 53. Shaft 53 is journaled transversely of and in the' cross rail 43 and also co-axially with the4 axis of rotation of the block 44. Upon the end of the shaft oppositethc gear 52, a beveled gear 54 is mounted to project behind the cross rail '43 into a centr rail 43,

" A. circular tool hanger 56 is mounted upon longitudinal chamber 55 in back of the face of theblock 47, and disposed co axiaiiythereof for adjustment about theaxis .of the block, being secured b'y bolts 47. The tool hanger-5G is provided with dependin ears 57 between which a Vtool holder or-crriage 58 is fulcrurned to bemoved nfla'vvelsf" a threaded lug 50 that is formed upon the block 47. By

upon the spindle (itt und the sleeve (il to prevent relative longitudinal movement of the bushinpY (i2 and the spindle (it). whereby when the bushingis adjusted it provides i'or correspondin;r movement of suidyspiudle. milling tool t-i of anysuitable type is clamped in thel end of the clinch that is adjacent the fulcruni ot' the barrel by any suitable devices. such as the spring collet indicated at G5. ln the embodiment ot' the tool shown. the collet is actuated by means of un ad jnstable rod (iti extendin; y through the spindle. and beyond the member 5S. 'l'he barrel may be provided with a dust cap 11T to cover the extended end'of the rod.

'Ihe end of the barrel 59. opposite the tool 64, is provided with a horizontal sleeve G9 that projects laterally therefrom. One end of a hollow elbow 7l) surrounds tht` sleeve (if) top oseillating movement thereon. the opporl n site end 71 of the elbow projecting: upwardly at an angle to the perpemlicular. The projecting end of the elbow Ti receives the lower end of a drive shaft T2 which is provided with a beveled geur T3 which meshes with the gear 74 fast upon the oatcr end ot a short horizontal shaft T5. Shaft 75 isjournaled in the sleeve (if) and carries :L beveled gear 76 upon its inner end which in turn meshes with a beveled gear 7T. (iear TT is splined upon the spindle (i0 so that the spindle may be rotated and vet adjusted, in a manner presently apparent. to vary thc depth of the cut.

Any suitable means for adjusting the spindle may be utilized. but preferably a rotary sleeve 80 is journaled in the barrel transversely thereof` and below the sleeve (i2. One end of the sleeve is'toothed. :is at 8l, Figure 20, to engage a rack SQ upon the bushini 62, whereby when the'sleevc Ro is rotate -the bushing: tit?. and likewise the parts carried thereby. are adjusted longitudinall of the barrel. A hand lever Rit is mountc upon the sleeve to rotate it and a relatively SllOIt lever 8i is nlso'provided thereon. The lever 84 is designed to engage a suitable form of stop device. indicated at 85, whereby the depth of thev cut may be accurately gail'ged. .\ny.form ot device having a micrometer adjustment may be utilized; A spindle 80 extends through g4 the sleeve 80 and is provided with a threaded end which carries a claniping nut 80" adapted to engage the bushing 62, 'whereby when the spindle 80 is rotated the bushing is clamped in position. The other end of the spindle 80 is provided with a hand lever 80" b v which it may be operated.

The drive shaft 72, at its upper end, is journaled in an oseillal'able housing;` S10 and projects therethrough, as shown in Figures 1 and 19. A dust cap 87 may be provided upon the housing to rover the projecting' end` of the shall; if desired. The housing is provided with a. laterzilly projectingl sleeve 88 by means of which it is jourualed. to oscillate about an horizontal axis.r in a bracket tlf). Bracket S9 adjustably mounted. upon the. standard 41 about the point` S9" and lined by set'serew 89h in the .manner shown in Figures 1 and il of the drawings. A shaft 90 is journaled in the sleeve S8. whereby it extends at a' right angle to the shaft 72. The inner end of the shaft is equipped with a beveled gear 90 which meshes with a similar gear 90h that is splined upon the shaft 72. Upon the outer end of the shaft 90 a belt plilley 91 is provided which is driven through a belt connection 92 from any suitable source of power, such as the' motor indicated at 93. Between the housing 86 and the elbow 70 of the tool holder," a .coil sprini,r 72=l surrounds the shaft 72 to assist in lifting the tool head. By means of this form of drive for the tool G4 and its connections with the barrel 59 of the tool holder 58,y the holder and tool may be freely moved about their fulcrum, as will be obvious, while the tool is continuously driven.

The tool holder 58v and tool 64 are os raclr9`4'is engaged?` by the forward end of a straight rack 96, which is slidably mounted in a second guideway 97 in the hanger 50. The raclr 96 is designed to be reciprocated i .in its guideway ,97; in accordance with a pattern whereby the tool holderl and tool are moved .about their fulcrum to adjust the tool in a vertical plane. Through this adjustment the tool is caused to cut in a vertical are, as will be apparent.` A gib plate 96 is arranged in the guideway 97 above the rack 96, the plate being rernov` able so that the rack 96 may be disconnected from. the rack 94 for a purpose presently apparent.

The rack 96 is pivoted at its rear end to the bolt 96b for adjustment in a vertical slot 97' of slide 98 and is madev in two parts, the adjacent ends -of which are oppositely threaded and connected together by a turnbucltle 98% The slide 98 is adapted to be reciproeated upon a guide rail 9,9

upon the cross rail 48, whereby it is mmn able independently thereof. Upon its rear face the side 98 is provided with laterally projecting)r lupA 11,00 which projects into a groove that is formed loiigitudinallyv of the cross rail l-l. as at 101. A threaded longi tudinally disposed shaft 102 is journaled at the rear-eud of the cross rail to project into the groove 101 and to engage the lug '100. t its rear end the shaft 1.02 projects to the rear of the -eross rail and is provided with a hand wheel 102% having a hollow hub portion 104- that is adapted normally to rotate freely about the shaft. lVithin the hub 104 a pair of annular opposed c'lutch'members 105 and 100 respectively are mounted upon the shaft 102. -Member 105 is freely rotatable about the shaft 102 and is keyed to the hub portion 104. Member 106 is pinned to the shaft102, as at 107, but is movable longitudinally thereof so that it j may be moved to clutch the member and clutch/the shaft thereto. A clutch operating` rod 100 is slidably mounted in a longitudinal bore 109 in the end of the shaft 102 and is suitably connected to the member 106 to move it in to and out of engagement with the member 105. By means of the'A foregoing construction, the screw shaft 102 may be actuated t0 reciprocate the slide 98 upon the cross rail 43.

A templet follower 110 is mounted upon the slide 98 for vertical adjustment relative thereto by means of a knurled hand screw 111. The follower may be clamped in any adjusted position by means -of, a binding screw 112. At its lower end the templet follower is provided with a roller 1,13 which engages a horizontally disposed templet or pattern plate 114.

A horizontally disposed slide is provided beneath the templet follower 110 to support the templet plate. Bolts or screws serve to lock the plate 114 upon the slide 115, as shown at 116. The slide 1.14 is mounted in horizontal guide arms 117 that project from the standard 41 and extend transversely of and over the support 9 previously referred to. yAs best shown in Figures 1 and 8, the arrangement of the templet plate 114 and the slide 115 is such that these elements may be moved between the guide arms 117 of the standard 41 and beneath the templet follower 110, when the arm 8 and the table 5 are oscillated through the operation of the lever 13' previously described. By thus oscillating the slide 115 and the plate 114 with the mold, the action of the cutting tool is directedtircumferentially of the mold, as will be l'readily under- Gli item14.

and the .slide 115 is provided with a coextensive slot ,119 substantially parallel with the slot 118. A slide block 120 is received in the slot 119 to bc moved longitudinally thereof. .1 headed sleeve 121 is disposed in the slot 118 in' vertical alignment with the block 120. and isprovided with an intermediate squared portion 122 adapted to slide in the slot 118. Below the portion 122 the sleeveis provided with a collar 12:1 which engages the under side of the support 9. The lower end of the sleeve 121 is thread` ed to receive a nut 124 by means of which the. collar 123 may be clamped against the uhder sidev of the support 9 and the sleeve held against movement thereon. A suitable form of level', such' as that shown at 125, is provided for turning the nut 124. A spring pressed vertical pin 126 is mounted in the sleeve 121 and has its upper endvprojecting into a bore 127 in the block 120 whereby the block and sleeve are normally connected together.

Means are also provided for varying the distance between the sleeve 121, its associated parte, and the center of` the mold to vary the scale at which the` pattern is reproduced eircumferentially 'o the mold, or to maintain a f fixed ratio hetween the pattern on the templet and ..the'

.one eut in the mold for different sites of molds. This comprises the following: A

threaded shaft 128 is mounted upon the arm 8 below the su port S) in position to parallel the slot 118 and to project through a threaded bore 129 in the collar J128. One. end of the shaft 128 is rotatably mounted in a suitable bearin on the arm 8 in which it is held against en( wise movement. The shaft is provided With a headedportion .130 by means of which it may be turned in its bearing to move the sleeve 121'and the block 120 in theirres ective slots 118 andlltl.

Upon the hu 104 of the wheel 103` two gears 131 and 132 respectively are splincd for adjustment longitudinally thereof. Gear 131 is designed to be inovcd by the oprator upon. the hub 104 into mesh with a gear 138 which is fixed upon the rear end of a threaded shaft 134. The shaft 134. at one end thereof, is journaled against longitudinal movement on the cross rail 43, and is-.disposed arallel with the shaft 102 previously described. intermediate its length, shaft lil-l engages a threaded lug 135 fixed upon the standard 4l. The gear 132 is designed to be )laced into mesh with a gear 136 which is teathered upon the rear end of a shaft 137. The shaft. 1517 has its end portions journaled in the cross rail lil and is also disposed in parallelismavitb shaft 102. 'lhe forward end of thc shaft 137 is pro-` vided with a beloved gear 13T that meshes with the gear 54 upon the previously described `shaft 53. `The shaft`134 is designed ln operating my invention. the mold is i first centered upon thc turn-table 14; the indexing devices. previously described. being preferably disconnected from the worm gear 27. Assuming that the opcrator desires to place a plurality ol' arcuate cuts at regular intervals in thc tread wall of the mold cavity. the cuts to be concentric of said tread wall. the tool holder is next positioned with its fulcruin point on thc radius renter -oi' .said wall. the shaft lill. being used to .properly lof-atc thc tool. 'A pattern plate 114. havingr thc proper longitudinal dimension of pattern to produce the heightofv the eut. is next positioned upon the slide 115 and" the tcmplet 'follower 110` adjusted to follow the 'pattern therein. The manner in which these. dimensions oi the pattern are ascertained. it is believed. need not, be entered `into in this description. The tool (il \is next adjustei'l to eut. to the proper depth by means of the hand lever 83 and its associated partsoreviously described. and the lever G-,ganci clamp nut 80b adjusted to clamp the. tool in its adjusted position. 'lhe proper indexing; gear 28 having been selected `to secure an equi-distant spacing of the cuts. the driving mechanism is now set in motion. ln order to obtainthe proper width of out, the mlold is oscillated by means of thc lever 13 to move the pattern about the templet follovveiztas will ibe clear from the previous description o1' thesc'parts. ln order to move the tool vertically upon its Fulcrum. the hand wheel 10:1 is clutched to the shaft 102 by means of the rod 108. in thc manner previously set forth. and the sha ft. 102 rotated to reciprocate the slide 95% and the rack 96. thus rocking thc tool holder 5h upon its fulcruin. 'lhc action oi' the slide 98 is` of course. controlled h v the loi-igitudinal dimension o' the pattern to regulate the range of movement ot the tool in a vertical direction. t,

Should the operator desire to eut in a straight line at. ,any angle. the procedure is as tollows: Raclctl is disconnected from ruck 94. and may be removed by removing the holt 96h. Blocks '14, and 47, together with the tool hanger 5G. are rotated about their axes to position the guide rail 1G at the angle required. Hanger. 5G is again adjusted about its axis to position the fulcriim o1 the tool upon the radius center oi' the mold Vall and the tool holder 58 adjusted about its fulcruin to position the lool 64 at a right angle to the guide rail 46. The tool 64 and holder 58 are locked in position relative to the rail 16 by means ot' bolt 94 which engages the segment 94. The operator may mesh the gear 132 with the gear 136. Upon rotation of the hand Wheel 103, shaft lil? and the beveled gear sorted to without departing troni the spirit of the invention or the scope of the appended claims.

lVhat `l claim ist l. A machine for engraving annular objects comprising in combination. an oscillatable support tor the object. a movable tool fulcrunied to cut transversely ot the object, means operable to move the tool to cut in an arcuate path. means operable to move the ulcrum of the tool to vary the radius of the arc or" the cut. means operable to move the. tool to cut in a straight path, and meansl common to each of said other means operable 'to aetuate selectively either ot' said other means.

2. A machine for engraving annular objects comprising in combination, an oscillatable support for the object, a movable tool tulerumed to cut transversely of the object, a floating drive shaft for the tool arranged at an angle thereto, means for moving the tool to cult in an arcuate path, and means adapted to be selectively employed for moving the tool to cut in a straight path.

3. A machine .tor engraving annular objects comprising in combination, an oscilla:

table support for the object, a movable tool ulcrumecl to cut transversely of the object, a Heating drive shaft fpr the tool arranged at an angle thereto, means for moving the tool to out :in an arcuate path, and means adapted to he selectively employed for inoving the tool to cut at an angle.

4, A machine tor vengfaving annular objects comprising` in combination, an' oscillatable support for the object, a movable tool tulcrumed to cut transversely of the object, a floating drive shaft for the tool arranged at an angle thereto, means for moving the tool to cut in an arcuate path means for moving the tool to cut at an angle, and means common to said wrst and second means operable to actuate either of said means.

5. A machine for engraving annular-obvjects.comprising in combination, an oscillatable supper-ttorl the object, a movable tool tulcrumed to eut transversely fof said object. a lloating drive shatt for the tool arranged at an angle thereto, means operable to move the fulcruin of the tool to vary the radius of the cut, means operable to move the tool to cut at an angle, and means common to each of said other mean;`l

operable selectively to actuate either of said other means.

6. A machine for engraving annular objects comprising 11i combination, an oscil- Yatable support for the object, a movable tool ""ulcrumed to cut t ansversely ot' the object, 75

means for rotatingr the object upon the support to space the cuts at equal intervals therein, means for moving the tool to cut in an arcuate path. means adapted to be selectively employed tor moving the tool to cut at an angle, and a Heating drive shaft 'for the tool arranged at an angle thereto.

7. A machine for engraving annular objects comprising` in combination, an oscillatable support for the object, a movable tool fulcrurned to cut transversely of the object, means for rotating the object upon the support to space the cuts at regular intervals therein, a pattern element connected to the support,v means including a pattern follower operable to move the tool to cut at an angle. and a floating drive shaft for the tool arranged at an angle thereto.

8. A machine for engraving annular objects comprising 'in'eombination, an oscil- 95 valstherein, a pattern element attached fte', 100 the support, means including a pattern foi'- lower operable to move the tool to cut atan angle,fa floating drive shaft for the to'ol arranged at an angle thereto, and means for adjusting the pattern element relative to 7the 105 support. 'f l 4 9. A machine of the .class desci'ibed`i'oiiiprising in combination,- an oscillatable supy port for the object, a vmovable tool fulcrumed to cut transversely of the object, 1l

means including an interchangeable gear drive for rotating the object upon the support, a pattern element mounted upon the support, for. adjustment radially ofthe object, means including a pattern follower 115 operable to move the tool to cut in an ar cuatepath, means operable to move the tool to cut at an angle, means' common to said other means operable selectively to actuate either of said other means, and a floating im drive shaft for the tool arranged at an angle thereto. A v

. 10. A machine oi' the class described'-con1-v prising in combination, an oscillatable support for the object, a movable tool fulcrinned to cut transversely oi the object, dev 'i'ces in. cluding an interchangeable gear ldrivelor rotating the object upon the' sup port,a-pat.- tern element mounted upon the support for A adjustment radially of the object, means in- 1W to eut transversely of the objeet. deviees ineluding an interehangea'ble gear drive for rotating the objeetii )on the support. a pattern element nioiintei` upon the iupport for adjustment radiallv of the object. means ineliiding a pattein follower operable toniovt` the tool to eut in an art-mite path. means operable to move the fuleruni ol' the tool to valy the radius ol the aril of the eut. mean;` for moving the tool to eut a an angle. means eoiiiinon to said other meansl operable selee-4 tively to aetuate either ot' said other means. and a iioating drive shaft for the tool arranged at an :ingle thereto.

l2. ln a machine for engraving annular molds, in eoinbination, an oseillatable mold support operable to move theniold about its axis, a carriage movable aeross the inold'annulas. a tool tulerumed upon the earriiige and adapted to be positioned in the mold eavity. a pattern element mounted upon the support for adjustment radially ofthe mold. a movable pattern follower. a removable eonneetion between the follower and the tool. and actuating meehanism eoinmonto the eairiage and the follou er operable to move either said carriage or said follower.

13. In a inaehine for engraving annular 'molds, an oseillatable mold support operable to niove the mold afbout its axis. a pattern element. mounted upon the support for adjustment radially nl the mold. a tool earriage inovalile horizontally nei-oss the mold annulus. a vertieal gui'de rail pivoted upon the carriage t'or adjustzneut into au inelined position, a tool hanger movable upon the guide rail` a fuit-ruined tool upon thehanger. a movable pattern follower on the eari'iage adapted to move the tool about its fiileruin. and actuating ineelninism eonimon to the tool hanger and the follower for seleetively moving either the hanger or the follower.

14. ln a maehine for engraving annular molds` in combination. means for supporting and oscillating a mold about its axis. means for rotating the mold upon thi` support with a Istep by step movement.. a tool earriage adapted tor movement aeross the mold anmihis` a tool fulcrumed upon the earriage to eut transversely of the mold. a pattern element mounted upon thesupport for adjustmentl radially of the mold, a pattern follower upon the carriage adapted for movement thereon to move the tool upon its ful- Crum in accordance with the pattern. and

means for adjusting the tool on the carriage.

to cut at antangle.l

15. "Ina maehine for engraving annular molds. in combination. means for supporting and rotating a mold in a horizontal position. means for oscillating said first means about its axis. a tool earriage movable aeross the Mold annuliis. a tool fulerumed upon the l'arriage to leut in an areuate path. a floating drive shaft for the tool arranged at au angle thereto. and a eoininon netnating mechanism for moving either the tool or the carriage.

16. In a mold engraving maehine. in eonibiiiatioii. a rotatable mold support` an oseillatable support t'or the rotatable support. and means operable to rotate the former up` on the latter with a step by step movement and to autoiiiatieally stop said rotation at, regular intervals said means being mounted upon one of the supports for adjustment into inoperative position.

li'. ln a machine for engraving annular molds. in eombination. a rotatable table adapted to support molds ot varying circumferenees. an oseillatable supportfor the rotatable table. and means operable to rotate the former upon the latter and to stop said rotation :it regular intervals .said means including devices for varying the intervals in aeeordanee with the cireinnfeienee of the mold. t

1S. ln a inhjinetorengraving `tire molds. a pivoted tool holder. a rotating tool in said holder. a rigid drive sha tft` for said tool. pivoted hearings for the ends ot' the drive shaft, and means permitting longitudinal movement of the shaft inone of said bearings.

lil. ln a maehine for engraving tire molds. a pivotei'ltool holder. a rotating tool in said holder. a rigid drive shaft for said tool. pivoted bearings for the ends of the drive sha lt. means permitting longitudinal movement of the shaft in one of'said bearings. means for rocking the tool holder. and eounter-balaneing means for the tool holder.

20. lu a iiiaehine for engravingtire molds. a mold supporting table pivotallv mounted at the eenter of the mold. a pattern eoniieeted to said table. a pivoted eiitting tool over the mold. means eontrolled hv the pattern for moving the eutting-tool said means moving in a straight line. and a eonneetion lietween the pattern and-the table for moving the former reetiliuearly.

21. ln a inaeliine for engravingtire molds. a mold supporting table pivotallv mounted at the eenter of the mold. a inovalileeutttng tool over the mold. tool moving means. a pattern follower earried on said moving means, a pattern. means for guiding the pattern in :1 straight line at an :ingle to the path ofthe tool-moving means. and a connection between the supporting table and the pattern.

22. In a machine for engraving tire molds, a mold supporting table 'pivotally mounted at the center of the mold, a movable cuttlng tool over the mold, tool moving means, a pattern follower carried on said moving means, a. pattern, means for guiding the pattern in a straight lineat an angle tothe path of the oscillating means, a connection between the supporting table and the pattern, and means for adj usting the pattern toward or away from the center of the mold.

23. in a machine for engraving tire molds, a table, a pivotal mounting for said table, means for securing a mold with the center thereof over the pivot ofthe table, an eX- tension on said table, an upright., a guideway arranged outside of the mold, a pattern movable in said guideway, and means connecting the table and the pattern.

24. In a machine'for engraving tire molds, a table, a pivotal mounting for said table,

arranged outside ot the mold, a pattern mov-V able in said guideway, means connecting the table and the pattern, an oscillating mold cutting' tool, a pattern follower connected to said tool, and means to adjust the pattern toward and away from the center of the mold.

ALBERT A. BUSH. 

